CN105314171A - Vacuum sealer for hot plate - Google Patents

Abstract

The invention relates to a vacuum sealer for a hot plate. The vacuum sealer for the hot plate comprises a frame body, a liquid injection system and a vacuum sealing system. The liquid injection system comprises a first lifting device, a first slide device, an injection device, a first pressing device, a lower end sealing device, liquid injection implements and liquid injection buckets. The first lifting device is connected with the outer side face of the frame body. The injection device is connected with the first lifting device through the first slide device. The lower end of the hot plate is sealed through the lower end sealing device. The upper end of the hot plate is fixed through the first pressing device. The liquid injection implements are connected with the injection device and the liquid injection buckets respectively. The vacuum sealing system comprises a second lifting device, a second slide device, a vacuum sealing device, a second pressing device and a lower end fixing device. The vacuum sealing device is fixed to the outer side face of the frame body through the second lifting device and the second slide device. The upper end of the hot plate is fixed to the second pressing device. The lower end of the hot plate is fixed through the lower end fixing device.

Description

A kind of hot plate vacuum sealer

Technical field

The present invention relates to a kind of hot plate vacuum sealer.

Background technology

Heat pipe is a kind of heat transfer element with high heat conductivility, within 1964, invents in Loews-A Luomosi National Laboratory of the U.S. (LosAlamosNationalLaboratory) and reach theoretical investigation peak at the end of the sixties in last century to start to widely apply at industrial circle the seventies.It carrys out transferring heat by becoming in the vapour of Totally enclosed vacuum intraductal working medium, liquid phase, has high permeability of heat, up to the hundreds of times of fine copper heat transfer capacity, has the laudatory title of " hot superconductor ".Technique reaches a standard, design outstanding heat pipe cpu heat, will have commonly to be beyond one's reach powerful performance without heat-pipe air-cooling radiator.But heat pipe has following shortcoming: 1, reach that temperature best response condition is also unrealized to be arrived, domestic heat pipe tubing is also immature; 2, heat transmission equipment cost of investment is relatively high; 3, current heat pipe is non-improvement also, up-to-date technology is not also obtained to the standard in pipe matter, thus cause heat pipe heat exchanging product life short, up-to-date solution must be adopted as early as possible to go to improve the compatibility of pipe matter and the degree of vacuum of heat pipe, to ensure that operating temperature is corresponding.

Based on the shortcoming of above heat pipe, create hot plate, the elongated flats of hot plate, comprise housing and be injected at inner superconductive liquid, comprise a lot of root hollow tubular in housing, superconductive liquid is injected in hollow tubular, and the two ends of hot plate are carried out sealing process, prevent superconductive liquid from flowing out, therefore need a set of equipment that can carry out injection and vacuum seal.Hot plate vacuum sealer comprises fluid injection and vacuum seal two systems, wherein liquid injection system thinks injecting fluid in hot plate, vacuum seal be by fluid injection after hot plate be evacuated, then in the environment of an opposing seal, carry out sealing operation, then need a set of equipment that simultaneously can carry out fluid injection operation and vacuum seal operation as a qualified hot plate will be produced.

Summary of the invention

The invention provides that a kind of structure is simple, easy and simple to handle, injection is convenient, vacuumize the hot plate vacuum sealer that efficiency is high, sealing effect is good.

The present invention is achieved through the following technical solutions:

A kind of hot plate vacuum sealer, for to hot plate fluid injection and vacuum seal, comprise support body, liquid injection system and vacuum seal system, described liquid injection system comprises the first jacking system, first carriage, injection device, first pinch device, lower end closing device, fluid gun and liquid charging barrel, described first jacking system is connected with the lateral surface of described support body, described priming device is connected with described first jacking system by the first carriage, hot plate lower end is sealed by lower end closing device, upper end is fixed by the first pinch device, described fluid gun is connected with liquid charging barrel with injection device respectively, described vacuum seal system comprises the second jacking system, the second carriage, vacuum sealer, the second pinch device and fixing lower, described vacuum sealer is fixed on the lateral surface of described support body by the second jacking system and the second carriage, hot plate upper end is fixed by the second pinch device, and lower end is fixed by fixing lower, described vacuum sealer comprises sealing solution compressing cylinder, sealing support, cut off connecting panel, upper slitter operator and the secondary cutter of upper slitter, described sealing base inner is located at by described cut-out connecting panel and the secondary cutter of upper slitter, the mouth of described sealing solution compressing cylinder passes the leading flank of described sealing support, and be connected with described cut-out connecting panel by hydraulic ram bar, described cut-out connecting panel is provided with upper slitter operator, the front portion of described upper slitter operator is provided with the secondary cutter of upper slitter, the leading flank of the secondary cutter of described upper slitter is operated with described upper slitter, and to be provided with a cutter stupefied in corresponding section, described hot plate upper end is between described upper slitter is operated and cutter is stupefied, described sealing support both sides are respectively provided with a sealing cylinder, be provided with one piece between two sealing cylinders and press down aluminium block seat, described sealing support lower surface is provided with a mounting groove, be provided with in described mounting groove and press down aluminium block, described press down aluminium block lower surface be fixed on described in press down on aluminium block seat, described sealing support is provided with the first socket, the described aluminium block that presses down is provided with the second socket, the described aluminium block seat that presses down is provided with the 3rd socket, hot plate upper end is successively through the 3rd socket, second socket and the first socket.

Described sealing frame upper surface is coated with seal cover board, and described seal cover board is provided with vacuum port joint, and described vacuum port joint is connected with described sealing base inner.

The outer end that described upper slitter is operated and cutter is stupefied is all V-shaped, and leads into fillet.

Described first jacking system and the second jacking system adopt same structure, comprise base plate, lifter plate, screw mandrel and two polished rods arranged in parallel, described screw mandrel is located between two polished rods, and be arranged in parallel with two polished rods, described screw mandrel two ends are fixed on described base plate respectively by bearing seat, described screw mandrel is arranged with one piece of screw mandrel contiguous block, described screw mandrel contiguous block is fixed on the back side of described lifter plate, described polished rod two ends are fixed on described base plate by polished rod carrier base, every root polished rod is arranged with two pieces of polished rod slide blocks, described polished rod slide block is fixed on the back side of described lifter plate, the upper end of described screw mandrel is provided with a hand-operated wheel.

Described first carriage and the second carriage adopt same structure, be fixed on lifter plate, comprise adapter plate and two groups of slide mechanisms arranged in parallel, often organize slide mechanism and comprise line slideway and slide block, two line slideways are arranged in parallel on described lifter plate, described line slideway is provided with two pieces of slide blocks, described slide block is fixed on the back side of described adapter plate, the cross section of described line slideway is in " work " font, two sides of described line slideway are respectively provided with a clamp bar slot, described slide block is provided with " T " font fluting, the both sides of the opening part of described fluting are respectively provided with a fixture block, described fixture block snaps in described draw-in groove, the lateral surface of described slide block is provided with one piece of adapter plate, described adapter plate is provided with four the first screw holes.

Described first pinch device and the second pinch device adopt same structure, be fixed on lifter plate, for clamping and locating hot plate upper end, comprise fluid injection locating piece, rotary cylinder and briquetting, the bottom of described lifter plate is fixed in the rear end of described fluid injection locating piece, the side, front end of described fluid injection locating piece is provided with a breach, opposite side is provided with an opening, a blend stop is provided with in described opening, hot plate is placed in described opening, and it is inconsistent with described blend stop, described rotary cylinder is located at described indentation, there, and described rotary cylinder and hot plate are mutually vertical to be arranged, the mouth of described rotary cylinder is provided with rotary pneumatic cylinder arm, described briquetting is connected with the free end of described rotary pneumatic cylinder arm, when impaction state, heat pipe is between described blend stop and described briquetting.

Described lower end closing device is fixed on the bottom of base plate, for the lower end closure to hot plate, it is characterized in that comprising sealing oil cylinder, oil pressure sealing seat, briquetting before oil pressure, lower cutter operator and the secondary cutter of lower cutter, the bottom in described floor rear face is located at by described sealing oil cylinder, described oil pressure sealing seat is located at the bottom of described base plate leading flank, before described oil pressure, briquetting is located in described oil pressure sealing seat, described sealing oil cylinder mouth is through described base plate, and be connected with briquetting before described oil pressure by oil pressure pipe link, before described oil pressure, the leading flank of briquetting is provided with the operator of lower cutter, the front portion of described lower cutter operator is provided with the secondary cutter of lower cutter, the secondary cutter trailing flank of described lower cutter is operated with described lower cutter, and to be provided with a cutter stupefied in corresponding section, described hot plate lower end is between described lower cutter is operated and cutter is stupefied.

Described fixing lower is fixed on the bottom of base plate, for the lower end of fixing hot plate, it is characterized in that comprising lower fixed support, lower compression cylinder and lower fixed support pushing block, described lower fixed support is fixed on the bottom of the leading flank of base plate, described lower fixed support is provided with an installing port, described lower compression cylinder and lower fixed support pushing block are located in described installing port, described lower compression cylinder is fixed on described installing port trailing flank, described lower fixed support pushing block is located at described lower compression cylinder front, and be connected with described lower compression cylinder, described lower fixed support pushing block leading flank is provided with a projection, the leading flank of described installing port is provided with a groove with described projection corresponding section, hot plate lower end is placed in described groove, and compressed by lower fixed support pushing block, the width of described projection is less than the width of described groove.

Described fluid gun comprises fluid injection commutator, fluid injection commutator machine, main support plate, pusher bar support, stepping motor and some glass tubes, described fluid injection commutator is propped up by fluid injection commutator and is set up in described main support plate top, the mouth of described fluid injection commutator machine is connected with described fluid injection commutator, described main support plate bottom is provided with some slots, described pusher bar support is provided with some cuttings, described cutting extends leading flank from described main support plate trailing flank, described pusher bar support is by slide mechanism and described main support plate sliding block joint, described glass tube is fixed on the leading flank of described main support plate by glass tube support, and be positioned at the top of described slot, every root cutting is provided with a glass tube fluid injection bar, the upper end of described glass tube fluid injection bar is inserted in described glass tube, the mouth of described stepping motor is provided with ball screw, described ball screw is connected with described pusher bar support by ball screw bearing.

Described injection device is fixed on adapter plate, for to hot plate injecting fluid, comprise some syringe needles, fluid injection syringe needle permanent seat, injection needle orienting lug and two injection needle pilot bars, described fluid injection syringe needle permanent seat is fixed on described adapter plate, described injection needle pilot bar upper end is fixed on described adapter plate by injection needle guide rod seat, described injection needle orienting lug is provided with two pilot bar through holes, the lower end of two injection needle pilot bars is each passed through two pilot bar through holes, described injection needle orienting lug is provided with a groove between two pilot bar through holes, described groove is provided with some first pinpricks, described syringe needle lower end is stretched in described first pinprick, on described fluid injection syringe needle permanent seat, the position corresponding with described first pinprick is provided with the second pinprick of equal number, described syringe needle upper end is located in described second pinprick, described lifter plate top is provided with described fluid injection cylinder by fluid injection air cylinder support, described fluid injection cylinder lower end is connected with described adapter plate by flake.

The beneficial effect that the present invention brings is:

In the present invention, described hot plate vacuum sealer is fixed on sealing tool rest base plate, for carrying out vacuum and sealing to hot plate, comprise sealing solution compressing cylinder, sealing support, cut off connecting panel, upper slitter operator and the secondary cutter of upper slitter, under the drive of sealing cylinder, hot plate upper end inserts the first socket successively, second socket and the 3rd socket, and time between described lower cutter operator and the secondary cutter of lower cutter, the vacuum pump connecting vacuum port joint is started working, process is vacuumized to hot plate, after vacuumizing process and completing, the action of described sealing solution compressing cylinder, drive described cut-out connecting panel in described sealing support to interior movement, then described upper slitter operator is near the secondary cutter of described upper slitter, and compress hot plate, hot plate is made to produce distortion, and then make the upper end closure of hot plate.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the present invention is described in further detail.

Fig. 1 is the structural representation of hot plate vacuum sealer of the present invention.

Fig. 2 is the structural representation of vacuum sealer of the present invention.

Fig. 3 is the structural representation that vacuum sealer of the present invention removes seal cover board, vacuum port joint and sealing support.

Fig. 4 is the structural representation in sealing support front of the present invention.

Fig. 5 is the structural representation of sealing support reverse side of the present invention.

Fig. 6 is the structural representation of cut-out connecting panel of the present invention.

Fig. 7 is the structural representation of hydraulic ram bar of the present invention.

Fig. 8 is the structural representation pressing down aluminium block of the present invention.

Fig. 9 is the structural representation pressing down aluminium block seat of the present invention.

Figure 10 is the structural representation of the secondary cutter of upper slitter of the present invention.

Figure 11 is the structural representation of jacking system of the present invention.

Figure 12 is the structural representation that lifter plate removed by jacking system of the present invention.

Figure 13 is the structural representation of polished rod carrier base of the present invention.

Figure 14 is the structural representation of screw mandrel contiguous block of the present invention.

Figure 15 is the structural representation of carriage of the present invention.

Figure 16 is the structural representation of slide mechanism of the present invention.

Figure 17 is the structural representation of slide block of the present invention.

Figure 18 is the structural representation of line slideway of the present invention.

Figure 19 is the structural representation of pinch device of the present invention.

Figure 20 is the structural representation that lifter plate removed by pinch device of the present invention.

Figure 21 is the structural representation of fluid injection locating piece of the present invention.

Figure 22 is the structural representation of lower end of the present invention closing device.

Figure 23 is the structural representation that lower end of the present invention closing device removes oil pressure sealing flap plate and oil pressure sealing seat.

Figure 24 is the lateral plan of lower end of the present invention closing device.

Figure 25 is the structural representation of oil pressure of the present invention sealing seat.

Figure 26 is the structural representation of briquetting before oil pressure of the present invention.

Figure 27 is the structural representation of oil pressure pipe link of the present invention.

Figure 28 is the structural representation of the secondary cutter of lower cutter of the present invention.

Figure 29 is the structural representation of fixing lower of the present invention.

Figure 30 is the structural representation that fixing lower of the present invention removes hot plate.

Figure 31 is lower support bracket fastened structural representation of the present invention.

Figure 32 is the structural representation of lower fixed support pushing block of the present invention.

Figure 33 is the structural representation of lower compression cylinder bar of the present invention.

Figure 34 is the structural representation in fluid gun front of the present invention.

Figure 35 is the structural representation of fluid gun reverse side of the present invention.

Figure 36 is the structural representation of injection device of the present invention.

Figure 37 is the structural representation in injection needle orienting lug front of the present invention.

Figure 38 is the structural representation of injection needle orienting lug reverse side of the present invention.

Figure 39 is the structural representation of fluid injection syringe needle permanent seat of the present invention.

Figure 40 is the structural representation of base of the present invention.

The label that in figure, component names is corresponding is as follows:

111, base plate; 112, lifter plate; 113, screw mandrel; 114, polished rod; 115, screw mandrel contiguous block; 116, polished rod carrier base; 117, polished rod slide block; 118, hand-operated wheel; 119, top chock; 1110, step; 1111, bearing; 1112, polished rod hole; 1113, slot; 1114, bolt hole; 1115, screw hole; 1116, screw hole; 1117, stepped hole; 1118, rocking handle; 1119, hot plate; 122, adapter plate; 123, line slideway; 124, slide block; 125, draw-in groove; 126, slot; 127, fixture block; 128, adapter plate; 129, the first screw hole; 1210, oblong openings; 1211, block; 1212, liquid charging barrel hold-down arm; 1213, fluid gun hold-down arm; 1214, the second screw hole; 1215, stepped hole; 131, fluid injection locating piece; 132, rotary cylinder; 133, briquetting; 134, breach; 135, opening; 136, blend stop; 137, rotary pneumatic cylinder arm; 138, rotary cylinder bar; 139, rib; 1310, circular arc chamfering; 141, syringe needle; 142, fluid injection syringe needle permanent seat; 1421, base; 1422, compact heap; 143, injection needle orienting lug; 144, injection needle pilot bar; 145, injection needle guide rod seat; 146, pilot bar through hole; 147, groove; 148, the first pinprick; 149, the second pinprick; 1410, spring; 1411, limiting stopper; 1412, injection port; 1413, hot plate slot; 1414, rectangular slot; 151, oil cylinder is sealed; 152, oil pressure sealing seat; 153, briquetting before oil pressure; 154, lower cutter operator; 155, the secondary cutter of lower cutter; 156, oil pressure pipe link; 157, cutter is stupefied; 158, fluid injection lower sealing cushion block; 159, oil pressure sealing flap plate; 1510, hot plate groove; 1511, oil pressure sealing seat base plate; 1512, export; 1513, slot; 1514, draw-in groove; 1515, bayonet socket; 1516, card article; 1517, through hole; 1518, slot; 161, fluid injection commutator; 162, fluid injection commutator machine; 163, main support plate; 164, pusher bar support; 165, stepping motor; 166, glass tube; 167, fluid injection commutator support; 168, slot; 169, cutting; 1610, glass tube fluid injection bar; 1611, ball screw; 1612, ball screw bearing; 1613, slide rail; 1614, slide block; 1615, stepping motor upper bracket; 1616, stepping motor lower bracket; 1617, connecting panel; 1618, glass tube upper bracket; 1619, glass tube lower bracket; 1620, export; 17, fixing lower; 171, lower fixed support; 172, lower fixed support pushing block; 173, installing port; 174, projection; 175, groove; 176, lower compression cylinder band; 177, lower compression cylinder bar; 178, blind hole; 179, breach; 1710, screw hole; 1711, stepped hole; 18, vacuum sealer; 181, sealing solution compressing cylinder; 182, support is sealed; 183, connecting panel is cut off; 184, upper slitter operator; 185, the secondary cutter of upper slitter; 186, hydraulic ram bar; 187, cutter is stupefied; 188, sealing cylinder; 189, aluminium block seat is pressed down; 1810, mounting groove; 1811, aluminium block is pressed down; 1812, the first socket; 1813, the second socket; 1814, the 3rd socket; 1815, seal cover board; 1816, vacuum port joint; 1817, slot; 1818, slot; 1819, convex tendon; 1820, bayonet socket; 1821, outside thread; 1822, tool rest base plate is sealed; 3, support body; 4, liquid charging barrel; 5, lower end closing device; 6, injection device; 7, fluid gun.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is described in further detail:

As the embodiment of hot plate vacuum sealer of the present invention, as Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, shown in Fig. 9 and Figure 10, for to hot plate 1119 fluid injection and vacuum seal, described hot plate vacuum seal machine mouth comprises support body 3, liquid injection system and vacuum seal system, described liquid injection system comprises the first jacking system, first carriage, injection device 6, first pinch device, lower end closing device 5, fluid gun 7 and liquid charging barrel 4, described first jacking system is connected with the lateral surface of described support body 3, described priming device 6 is connected with described first jacking system by the first carriage, hot plate 1119 lower end is sealed by lower end closing device 5, upper end is fixed by the first pinch device, described fluid gun 7 is connected with liquid charging barrel 4 with injection device 6 respectively, described vacuum seal system comprises the second jacking system, the second carriage, vacuum sealer 18, second pinch device and fixing lower 17, described vacuum sealer 18 is fixed on the lateral surface of described support body 3 by the second jacking system and the second carriage, hot plate 1119 upper end is fixed by the second pinch device, and lower end is fixed by fixing lower 17, described vacuum sealer 18 comprises sealing solution compressing cylinder 181, sealing support 182, cut off connecting panel 183, upper slitter operator 184 and the secondary cutter 185 of upper slitter, it is inner that described sealing support 182 is located at by described cut-out connecting panel 183 and the secondary cutter 185 of upper slitter, the mouth of described sealing solution compressing cylinder 181 passes the leading flank of described sealing support 182, and be connected with described cut-out connecting panel 183 by hydraulic ram bar 186, described cut-out connecting panel 183 is provided with upper slitter operator 184, the front portion of described upper slitter operator 184 is provided with the secondary cutter 185 of upper slitter, the leading flank of the secondary cutter 185 of described upper slitter is operated with described upper slitter 184 corresponding sections are provided with a cutter stupefied 187, described hot plate 1119 upper end is between described upper slitter operator 184 and cutter stupefied 187, described sealing support 182 both sides are respectively provided with a sealing cylinder 188, be provided with one piece between two sealing cylinders 188 and press down aluminium block seat 189, described sealing support 182 lower surface is provided with a mounting groove 1810, be provided with in described mounting groove 1810 and press down aluminium block 1811, described press down aluminium block 1811 lower surface be fixed on described in press down on aluminium block seat 189, described sealing support 182 is provided with the first socket 1812, the described aluminium block 1811 that presses down is provided with the second socket 1813, the described aluminium block seat 189 that presses down is provided with the 3rd socket 1814, hot plate 1119 upper end is successively through the 3rd socket 1814, second socket 1813 and the first socket 1812.

In the present embodiment, described sealing support 182 upper surface is coated with seal cover board 1815, and described seal cover board 1815 is provided with vacuum port joint 1816, and described vacuum port joint 1816 is connected with described sealing support 182 inside.

In the present embodiment, the madial wall of described sealing support 182 is provided with two slots be symmetrically set 1817, and the both sides of the secondary cutter 185 of described upper slitter snap in two slots 1817 respectively.

In the present embodiment, the trailing flank of described cut-out connecting panel 183 is provided with a fluting 1818, and described upper slitter operator 184 is located in described fluting 1818.

In the present embodiment, one end that described hydraulic ram bar 186 is connected with described cut-out connecting panel 183 is provided with a circle convex tendon 1819, one end that described cut-out connecting panel 183 is connected with described hydraulic ram bar 186 is provided with bayonet socket 1820, and described convex tendon 1819 snaps in described bayonet socket 1820; One end that described hydraulic ram bar 186 is connected with described sealing solution compressing cylinder 181 is provided with outside thread 1821, is connected with described sealing solution compressing cylinder 181 by outside thread 1821.

In the present embodiment, the outer end of described upper slitter operator 184 and cutter stupefied 187 is all V-shaped.

As Figure 11, Figure 12, shown in Figure 13 and Figure 14, described first jacking system and the second jacking system adopt same structure, comprise base plate 111, lifter plate 112, screw mandrel 113 and two polished rods 114 arranged in parallel, described screw mandrel 113 is located between two polished rods 114, and be arranged in parallel with two polished rods 114, described screw mandrel 113 two ends are fixed on described base plate 111 respectively by bearing seat, described screw mandrel 113 is arranged with one piece of screw mandrel contiguous block 115, described screw mandrel contiguous block 115 is fixed on the back side of described lifter plate 112, described polished rod 114 two ends are fixed on described base plate 111 by polished rod carrier base 116, every root polished rod 114 is arranged with two pieces of polished rod slide blocks 117, described polished rod slide block 117 is fixed on the back side of described lifter plate 112, the upper end of described screw mandrel 113 is provided with a hand-operated wheel 118.Described lifter plate 112 can move up and down by relatively described base plate 111, the hand-operated wheel 118 that user is arranged on described screw mandrel 113 upper end by rocking-turn makes screw mandrel 113 rotate, because, be threaded connection with screw mandrel 113, be arranged on screw mandrel contiguous block 115 up-and-down movement in the middle part of screw mandrel 113, described screw mandrel contiguous block 115 is fixedly connected with described lifter plate 112, then in the process of described screw mandrel contiguous block 115 up-and-down movement, drive described lifter plate 112 up-and-down movement, device for injecting is mounted on lifter plate 112, so achieve the up-and-down movement of injection device, complete injection operation, because, cavity on hot plate is relatively little, Injection head needs to carry out injection operation accurately to be needed to aim at exactly, so be ensure that the stationarity of lifter plate 112 up-and-down movement by described polished rod 114 and polished rod slide block 117, described polished rod 114 has the effect of guide rod, described polished rod slide block 117 has the effect of orienting lug, and by respectively installing the vibrational power flow of a polished rod in the both sides of screw mandrel 113, further ensures the stationarity of motion.

In the present embodiment, described bearing seat comprises top chock 119 and step 1110, described step 1110 is fixed on described base plate 111 by screw (not shown), bearing 1111 is provided with between described top chock 119 and step 1110, described bearing 1111 is set in the two ends of described screw mandrel 113, and described top chock 119 is connected with described step 1110 by screw (not shown).The two ends of described screw mandrel 113 are erected on bearing 1111 respectively, then by bearing seat, screw mandrel 113 is fixed on base plate 111, when screw mandrel 113 rotates, the inner ring of described bearing 1111 and then rotates, and bearing 1111 has the advantages such as stability of rotation is smooth and easy, noise is little, resistance is little.

In the present embodiment, described polished rod carrier base 116 is fixed on described base plate 111 by screw (not shown), described polished rod carrier base 116 is provided with polished rod hole 1112, side, described polished rod hole 1112 is provided with fluting 1113, described fluting 1113 is connected with described polished rod hole 1112, described polished rod carrier base 116 is vertically installed with bolt hole 1114 mutually with described polished rod hole 1112, described bolt hole 1114 connects with described fluting 1113, be provided with bolt (not shown) in described bolt hole 1114, and locked by nut (not shown).Arranging of described fluting 1113 can facilitate polished rod 114 to insert in described polished rod hole 1112, and makes polished rod hole 1112 have certain elasticity, then is locked by screw bolt and nut, and this kind of structure installment is convenient.

In the present embodiment, described screw mandrel contiguous block 115 is in "T"-shaped, described screw mandrel contiguous block 115 is provided with screw hole 1115, is mutually vertically installed with two screw holes 1116 with described screw hole 1115, is fixed on the back side of described lifter plate 112 by screw (not shown).

In the present embodiment, described screw mandrel contiguous block 115 is provided with a stepped hole 1117 around described screw hole 1116.

In the present embodiment, described hand-operated wheel 118 upper surface is provided with rocking handle 1118.The user-friendly described hand-operated wheel of described rocking handle 1118.

As Figure 15, Figure 16, shown in Figure 17 and Figure 18, described first carriage and the second carriage adopt same structure, be fixed on lifter plate, comprise lifter plate 112, adapter plate 122 and two groups of slide mechanisms arranged in parallel, often organize slide mechanism and comprise line slideway 123 and slide block 124, two line slideways are arranged in parallel on described lifter plate 112, described line slideway 123 is provided with two pieces of slide blocks 124, described slide block 124 is fixed on the back side of described adapter plate 122, the cross section of described line slideway 124 is in " work " font, two sides of described line slideway 124 are respectively provided with a clamp bar slot 125, described slide block 124 is provided with " T " font fluting 126, the both sides of the opening part of described fluting 126 are respectively provided with a fixture block 127, described fixture block 127 snaps in described draw-in groove 125, the lateral surface of described slide block 124 is provided with one piece of adapter plate 128, described adapter plate 128 is provided with four the first screw holes 129.Snapped in described draw-in groove 125 by described fixture block 127, and the profile of the profile of described fixture block 127 and described draw-in groove 125 matches, the snap fit of this kind of structure is not easy mutual disengaging, and can ensure that motion is smooth and easy, is not easy stuck.

In the present embodiment, the bottom of described adapter plate 122 is provided with an oblong openings 1210, and the bottom of described lifter plate 112 is provided with a block 1211, and described block 1211 is positioned at described oblong openings 1210.Described block 1211 plays the effect driving adapter plate 122 to move downward, then the Injection head achieved on adapter plate 122 moves downward aligning hot plate and carries out fluid injection operation.

In the present embodiment, described block 1211 is in " T " font, and the width of described oblong openings 1210 is greater than the width of described block 1211 outer end.Above width dimensions design ensure that described block 1211 can move in described oblong openings 1210.

In the present embodiment, the both sides of described lifter plate 112 are respectively equipped with liquid charging barrel hold-down arm 1212 arranged in parallel and fluid gun hold-down arm 1213, and described liquid charging barrel hold-down arm 1212 and fluid gun hold-down arm 1213 are made into integration with described lifter plate 112.Described liquid charging barrel hold-down arm 1212 is for installing liquid charging barrel, and described fluid gun hold-down arm 1213, for installing fluid gun, arranges liquid charging barrel hold-down arm 1212 and fluid gun hold-down arm 1213 respectively in both sides, two groups of liquid injection systems can be made to operate in turn and carry out fluid injection operation.

In the present embodiment, described line slideway 123 is provided with four the second screw holes 1214, the lateral surface being positioned at described line slideway 123 is provided with stepped hole 1215 around described second screw hole 1214, and the diameter of described stepped hole 1215 is greater than the diameter of described second screw hole 1214.The setting of described stepped hole 1215 is that the screw head of the screw in order to make term fix is absorbed in described stepped hole, and after ensure that assembling, up-and-down movement can not produce interference.

In the present embodiment, described adapter plate 128 is made into integration with described slide block 124.

As Figure 19, shown in Figure 20 and Figure 21, described first pinch device and the second pinch device adopt same structure, be fixed on lifter plate, for clamping and locating hot plate upper end, comprise fluid injection locating piece 131, rotary cylinder 132 and briquetting 133, the bottom of described lifter plate 112 is fixed in the rear end of described fluid injection locating piece 131, the side, front end of described fluid injection locating piece 131 is provided with a breach 134, opposite side is provided with an opening 135, a blend stop 136 is provided with in described opening 135, hot plate 1119 is placed in described opening 135, and it is inconsistent with described blend stop 136, described rotary cylinder 132 is located at described breach 134 place, and described rotary cylinder 132 is arranged with hot plate 1119 is mutually vertical, the mouth of described rotary cylinder 132 is provided with rotary pneumatic cylinder arm 137, described briquetting 133 is connected with the free end of described rotary pneumatic cylinder arm 137, when impaction state, heat pipe 1312 is between described blend stop 136 and described briquetting 132.Hot plate 1119 is located between described fluid injection locating piece 131 and described briquetting 133, the medial surface of hot plate 1119 is inconsistent with the blend stop 136 at opening 135 place being located at described fluid injection locating piece 131, and move inward described briquetting 133 by rotary cylinder 132, described briquetting 133 is made to compress the lateral surface of hot plate 1119, it is simple that this kind compresses mode structure, motion freely, only need compress by the rotation of rotary cylinder 132 and flexible can realization or unclamp hot plate 1119, and then ensure that hot plate 1119 fixing of strip shape flats, be convenient to the carrying out of injection operation.

In the present embodiment, described rotary pneumatic cylinder arm 137 is connected with described rotary cylinder 132 by rotary cylinder bar 138.Described rotary cylinder bar 138 has and drives described rotary pneumatic cylinder arm 137 inwardly or the effect of outwards motion, and then realizes described briquetting 133 and compress or unclamp hot plate 1119.

In the present embodiment, described fluid injection locating piece 131 is positioned at both sides, described opening 135 place and is respectively provided with a rib 139, the madial wall of described rib 139 is provided with circular arc chamfering 1310.Described rib 139 carries out seat restriction to hot plate 1119, and place hot plate 1119 sway, arranging of described circular arc chamfering 1310 can facilitate putting into or taking out of hot plate 1119.

In the present embodiment, described blend stop 136 is arranged in parallel with described briquetting 133.The blend stop 136 and the briquetting 133 that be arranged in parallel ensure that, when compressing hot plate 1119, the power suffered by hot plate 1119 is balanced.

In the present embodiment, the width of described briquetting 133 is less than the width of described opening 135.This kind of size design can ensure that briquetting 133 is pressed in described opening 135 completely, makes the compression effect of hot plate 1119 better.

In the present embodiment, described rotary cylinder 132 is fixed on the indentation, there of described fluid injection locating piece 131 by screw (not shown), described rotary pneumatic cylinder arm 137 is connected with described rotary cylinder bar 138 by screw (not shown), and described briquetting 133 is connected with described rotary cylinder bar 138 by screw (not shown).With upper-part, by the fixed form of screw, Assembly &Disassembly is all more convenient comparatively speaking.

As Figure 22, Figure 23, Figure 24, Figure 25, Figure 26, shown in Figure 27 and Figure 28, described lower end closing device is fixed on the bottom of base plate 111, for the lower end closure to hot plate 1119, described lower end closing device comprises sealing oil cylinder 151, oil pressure sealing seat 152, briquetting 153 before oil pressure, lower cutter operator 154 and the secondary cutter 155 of lower cutter, the bottom of described base plate 111 trailing flank is located at by described sealing oil cylinder 151, described oil pressure sealing seat 152 is located at the bottom of described base plate 111 leading flank, before described oil pressure, briquetting 153 is located in described oil pressure sealing seat 152, described sealing oil cylinder 151 mouth is through described base plate 111, and be connected with briquetting 153 before described oil pressure by oil pressure pipe link 156, before described oil pressure, the leading flank of briquetting 153 is provided with lower cutter operator 154, the front portion of described lower cutter operator 154 is provided with the secondary cutter 155 of lower cutter, secondary cutter 155 trailing flank of described lower cutter is operated with described lower cutter 154 corresponding sections are provided with a cutter stupefied 157, described hot plate 1119 lower end is between described lower cutter operator 154 and cutter stupefied 157.

In the present embodiment, described oil pressure sealing seat 152 is provided with two slots be symmetrically set 1518, and the both sides of the secondary cutter 155 of described lower cutter snap in two slots 1518 respectively.

In the present embodiment, the bottom of secondary cutter 155 trailing flank of described lower cutter is provided with one piece of fluid injection lower sealing cushion block 158, and the upper surface that cushion block 158 is sealed in the lower surface of described hot plate 1119 and described fluid injection is inconsistent.Described fluid injection lower sealing cushion block 158 plays the effect stopping that described hot plate 1119 moves downward, and limits the position of hot plate 1119 and the position of sealing, when needing the position changing sealing, only needs the height changing fluid injection lower sealing cushion block 158.

In the present embodiment, the top of described oil pressure sealing seat 152 is coated with oil pressure sealing flap plate 159, and described oil pressure sealing flap plate 159 is provided with hot plate groove 1510, and described hot plate 1119 lower end is through described hot plate groove 1510.

In the present embodiment, the bottom of described oil pressure sealing seat 152 is coated with oil pressure sealing seat base plate 1511, described oil pressure sealing seat base plate 1511 is positioned at below described hot plate 1119 and is provided with outlet 1512.

In the present embodiment, before described oil pressure, the leading flank of briquetting 153 is provided with a fluting 1513, and described lower cutter operator 154 is located in described fluting 1513, and lower cutter operator 154 is connected with briquetting before oil pressure 153 by screw (not shown).

In the present embodiment, one end that described oil pressure pipe link 156 is connected with described sealing oil cylinder 151 is provided with outside thread, be connected with described sealing oil cylinder 151 by outside thread, one end that described oil pressure pipe link 156 is connected with briquetting 153 before described oil pressure is provided with a circle draw-in groove 1514, one end that before described oil pressure, briquetting 153 is connected with described oil pressure pipe link 156 is provided with bayonet socket 1515, the opening part of described bayonet socket 1515 is provided with two card articles be symmetrically set 1516, described oil pressure pipe link 156 snaps in described bayonet socket 1515, and described card article 1516 snaps in described draw-in groove 1514.The transmission effect of above structure to the power of described sealing oil cylinder 151 is relatively good, can transmit preparatively and put in place, and then ensure that the effect of sealing.

In the present embodiment, the secondary cutter 155 of described lower cutter is positioned at above described cutter stupefied 157 and is provided with a through hole 1517.

In the present embodiment, the outer end of described lower cutter operator 154 and the secondary cutter 155 of lower cutter is all V-shaped.The profile of " V " shape is convenient to hot plate to carry out sealing operation, and sealing effect is relatively good.

As Figure 29, Figure 30, Figure 31, shown in Figure 32 and Figure 33, described fixing lower is fixed on the bottom of base plate 111, for the lower end of fixing hot plate 1119, described fixing lower comprises lower fixed support 171, lower compression cylinder and lower fixed support pushing block 172, described lower fixed support 171 is fixed on the bottom of the leading flank of base plate 111, described lower fixed support 171 is provided with an installing port 173, described lower compression cylinder and lower fixed support pushing block 172 are located in described installing port 173, described lower compression cylinder is fixed on described installing port 173 trailing flank, described lower fixed support pushing block 172 is located at described lower compression cylinder front, and be connected with described lower compression cylinder, described lower fixed support pushing block 172 leading flank is provided with a projection 174, the leading flank of described installing port 173 is provided with a groove 175 with described projection 174 corresponding section, hot plate 1119 lower end is placed in described groove 175, and compressed by lower fixed support pushing block 172, the width of described projection 174 is less than the width of described groove 175.Described lower compression cylinder is Power Drive Unit, described lower fixed support pushing block 172 is driven to move, and then realize compressing or unclamping hot plate 1119, and then handled easily work carries out installing or dismantle hot plate 1119, and lower compression cylinder can control the dynamics of compression well, prevents from pressing to obtain tension, and cause hot plate to be out of shape, press too loose, then compress effect bad, easily affect vacuum pumping.

In the present embodiment, described lower compression cylinder comprises lower compression cylinder band 176 and lower compression cylinder bar 177, described lower compression cylinder body 176 is fixed on the trailing flank of described installing port 173 by screw (not shown), described lower compression cylinder bar 177 one end is connected with described lower compression cylinder band 176, and the other end is connected with described lower fixed support pushing block 172.Described lower compression cylinder bar 177 achieves well and lower compression cylinder band 176 and lower fixed support pushing block 172 is linked together, and the displacement making lower compression cylinder band 176 produce accurately is delivered on lower fixed support pushing block 172, further ensures the effect of compression.

In the present embodiment, described lower compression cylinder bar 177 is cylindrical, described lower compression cylinder band 176 front end face place is inserted in the rear end of described lower compression cylinder bar 177, and the front end face of described lower compression cylinder bar 177 is provided with a blind hole 178, and described blind hole 178 inside face is provided with negative thread.Be provided with a screw hole 179 in the middle part of described lower fixed support pushing block, described lower fixed support pushing block 172 is connected with described lower compression cylinder bar 177 by through hole screw (not shown), and described screw matches with the negative thread in described blind hole 178.Be connected with lower compression cylinder bar 177 by lower fixed support pushing block 172 by the mode of screw, this kind of connection mode is simple and convenient, and compares firm and durable.

In the present embodiment, the front end face of described lower compression cylinder bar 177 is provided with two symmetrical breach 1710, and the degree of depth of described breach 1710 is less than the degree of depth of described blind hole 178.Described two breach 1710 are convenient inserts described lower compression cylinder body 176 inside by lower compression cylinder bar 177, and when lower compression cylinder bar 177 takes out by needs, withdrawing device only need block described two breach 1710.

In the present embodiment, projection 174 side of described lower fixed support pushing block 172 is provided with a stepped hole 1711 around described screw hole 179.Screw head for the screw connecting described lower compression cylinder bar 177 and lower fixed support pushing block 172 is absorbed in described stepped hole 1711, avoids screw head and withstands hot plate 1119 and cause the situation that hot plate 1119 damages.

As shown in figs. 34 and 35, described fluid gun comprises fluid injection commutator 161, fluid injection commutator machine 162, main support plate 163, pusher bar support 164, stepping motor 165 and six roots of sensation glass tube 166, described fluid injection commutator 161 is located at described main support plate 163 top by fluid injection commutator support 167, the mouth of described fluid injection commutator machine 162 is connected with described fluid injection commutator 161, described main support plate 163 bottom is provided with six slot 16s 8, described pusher bar support 164 is provided with six roots of sensation cutting 169, described cutting 169 extends leading flank from described main support plate 163 trailing flank, described pusher bar support 164 is by slide mechanism and described main support plate 163 sliding block joint, described glass tube 166 is fixed on the leading flank of described main support plate 163 by glass tube support, and be positioned at the top of described slot 16 8, every root cutting 169 is provided with a glass tube fluid injection bar 1610, the upper end of described glass tube fluid injection bar 1610 is inserted in described glass tube 166, the mouth of described stepping motor 165 is provided with ball screw 1611, described ball screw 1611 is connected with described pusher bar support 164 by ball screw bearing 1612.Described pusher bar support 164 can up-and-down movement under the drive of stepping motor 165, and then drive glass tube fluid injection bar 1610 up-and-down movement be located in glass tube 166, when described glass tube fluid injection bar 1610 moves downward, liquid is drawn onto in glass tube 166 in liquid charging barrel, change the flow direction of fluid injection commutator 161 again, when glass tube fluid injection bar 1610 upward movement, the liquid in glass tube 166 is pushed in the hollow tubular of hot plate; Described stepping motor 165 drives pusher bar support 164 up-and-down movement by the type of drive of ball screw 1611 and ball screw bearing 1612, very accurately can control the amount of injecting.

In the present embodiment, described slide mechanism comprises two one slide rails 1613 and two slide blocks 1614, what two one slide rails 1613 were parallel to each other is provided with on the trailing flank of described main support plate 163, two slide blocks 1614 are respectively equipped with the two ends of described pusher bar support 164, and described slide block 1614 and described slide rail 1613 sliding block joint.

In the present embodiment, the trailing flank of described main support plate 163 is provided with stepping motor upper bracket 1615 and stepping motor lower bracket 1616, described stepping motor upper bracket 1615 is positioned at above described slot 16 8, described stepping motor lower bracket 1616 is positioned at below described slot 16 8, described pusher bar support 164 is between described stepping motor upper bracket 1615 and stepping motor lower bracket 1616, described stepping motor 165 is located on the upper surface of described stepping motor upper bracket 1615, described ball screw 1611 upper end is connected with the mouth of described stepping motor 165 through described stepping motor upper bracket 1615, the lower end of described ball screw 1611 is inserted in described stepping motor lower bracket 1616, and be rotationally connected with described stepping motor lower bracket 1616.

In the present embodiment, described stepping motor upper bracket 1615 is connected by connecting panel 1617 away from described main support plate 163 one end with stepping motor lower bracket 1616.

In the present embodiment, described glass tube support comprises glass tube upper bracket 1618 and glass tube lower bracket 1619, the both ends open of described glass tube 166, described glass tube upper bracket 1618 is provided with six outlets 1620, described glass tube lower bracket 1619 is provided with six import (not shown)s, described outlet 1620 is connected with described fluid injection commutator 161 by pipeline (not shown), and described glass tube fluid injection bar 1610 inserts in described glass tube 166 from described import.

As Figure 36, Figure 37, Figure 38, shown in Figure 39 and Figure 40, described priming device is fixed on adapter plate 122, for to hot plate 1119 injecting fluid, comprise ten syringe needles 141, fluid injection syringe needle permanent seat 142, injection needle orienting lug 143 and two injection needle pilot bars 144, described fluid injection syringe needle permanent seat 142 is fixed on described adapter plate 122, described injection needle pilot bar 144 upper end is fixed on described adapter plate 122 by injection needle guide rod seat 145, described injection needle orienting lug 143 is provided with two pilot bar through holes 146, the lower end of two injection needle pilot bars 144 is each passed through two pilot bar through holes 146, described injection needle orienting lug 143 is provided with a groove 147 between two pilot bar through holes 146, described groove 147 is provided with ten the first pinpricks 148, described syringe needle 141 lower end is stretched in described first pinprick 148, position corresponding with described first pinprick 148 on described fluid injection syringe needle permanent seat 142 is provided with ten the second pinpricks 149, described syringe needle 141 upper end is located in described second pinprick 149.

In the present embodiment, described injection needle pilot bar 144 is arranged with spring 1410, described spring 1410 is between injection needle guide rod seat 145 and described injection needle orienting lug 143.The described spring 1410 being set in injection needle pilot bar 144 plays the effect that injection needle orienting lug 143 is resetted.

In the present embodiment, the lower end of every root injection needle pilot bar 144 is equipped with a limiting stopper 1411, and described limiting stopper 1411 is positioned at below described injection needle orienting lug 143.Described limiting stopper 1411 prevents injection needle orienting lug 143 from coming off from the lower end of described injection needle pilot bar 144.

In the present embodiment, described fluid injection syringe needle permanent seat 142 comprises base 1421 and compact heap 1422, and described second pinprick 149 is by being a semicircular arc groove on described base 1421 and being that a semi-circular recesses combines in the position that described compact heap 1422 is corresponding.It is all more convenient with dismounting that this kind compresses by base 1421 and compact heap 1422 structure installment fixing syringe needle 141 mutually.

In the present embodiment, the upper end of each syringe needle 141 is equipped with injection port 1412, and described injection port 1412 is connected with described syringe needle 141 and is coniform.Described injection port 1412 facilitates liquid to inject.

In the present embodiment, the lower surface of described injection needle orienting lug 143 is provided with a hot plate slot 1413, and described hot plate slot 1413 cross section is in " V " font.Described hot plate slot 1413 facilitates hot plate 1119 to insert, and carries out certain position restriction to hot plate 1119.

In the present embodiment, the bottom of described hot plate slot 1413 is provided with a rectangular slot 1414, and described rectangular slot 1414 is for being communicated with described hot plate slot 1413 and described groove 147.Described rectangular slot 1414 carries out position restriction to hot plate 1119 further, makes hot plate 1119 relatively firm, is not easy to rock.

Claims (10)

1. a hot plate vacuum sealer, for to hot plate fluid injection and vacuum seal, it is characterized in that comprising support body, liquid injection system and vacuum seal system, described liquid injection system comprises the first jacking system, first carriage, injection device, first pinch device, lower end closing device, fluid gun and liquid charging barrel, described first jacking system is connected with the lateral surface of described support body, described priming device is connected with described first jacking system by the first carriage, hot plate lower end is sealed by lower end closing device, upper end is fixed by the first pinch device, described fluid gun is connected with liquid charging barrel with injection device respectively, described vacuum seal system comprises the second jacking system, the second carriage, vacuum sealer, the second pinch device and fixing lower, described vacuum sealer is fixed on the lateral surface of described support body by the second jacking system and the second carriage, hot plate upper end is fixed by the second pinch device, and lower end is fixed by fixing lower, described vacuum sealer comprises sealing solution compressing cylinder, sealing support, cut off connecting panel, upper slitter operator and the secondary cutter of upper slitter, described sealing base inner is located at by described cut-out connecting panel and the secondary cutter of upper slitter, the mouth of described sealing solution compressing cylinder passes the leading flank of described sealing support, and be connected with described cut-out connecting panel by hydraulic ram bar, described cut-out connecting panel is provided with upper slitter operator, the front portion of described upper slitter operator is provided with the secondary cutter of upper slitter, the leading flank of the secondary cutter of described upper slitter is operated with described upper slitter, and to be provided with a cutter stupefied in corresponding section, described hot plate upper end is between described upper slitter is operated and cutter is stupefied, described sealing support both sides are respectively provided with a sealing cylinder, be provided with one piece between two sealing cylinders and press down aluminium block seat, described sealing support lower surface is provided with a mounting groove, be provided with in described mounting groove and press down aluminium block, described press down aluminium block lower surface be fixed on described in press down on aluminium block seat, described sealing support is provided with the first socket, the described aluminium block that presses down is provided with the second socket, the described aluminium block seat that presses down is provided with the 3rd socket, hot plate upper end is successively through the 3rd socket, second socket and the first socket.

2. hot plate vacuum sealer as claimed in claim 1, it is characterized in that described sealing frame upper surface is coated with seal cover board, described seal cover board is provided with vacuum port joint, and described vacuum port joint is connected with described sealing base inner.

3. hot plate vacuum sealer as claimed in claim 2, is characterized in that the outer end that described upper slitter is operated and cutter is stupefied is all V-shaped, and leads into fillet.

4. hot plate vacuum sealer as claimed in claim 3, it is characterized in that described first jacking system and the second jacking system adopt same structure, comprise base plate, lifter plate, screw mandrel and two polished rods arranged in parallel, described screw mandrel is located between two polished rods, and be arranged in parallel with two polished rods, described screw mandrel two ends are fixed on described base plate respectively by bearing seat, described screw mandrel is arranged with one piece of screw mandrel contiguous block, described screw mandrel contiguous block is fixed on the back side of described lifter plate, described polished rod two ends are fixed on described base plate by polished rod carrier base, every root polished rod is arranged with two pieces of polished rod slide blocks, described polished rod slide block is fixed on the back side of described lifter plate, the upper end of described screw mandrel is provided with a hand-operated wheel.

5. hot plate vacuum sealer as claimed in claim 4, it is characterized in that described first carriage and the second carriage adopt same structure, be fixed on lifter plate, comprise adapter plate and two groups of slide mechanisms arranged in parallel, often organize slide mechanism and comprise line slideway and slide block, two line slideways are arranged in parallel on described lifter plate, described line slideway is provided with two pieces of slide blocks, described slide block is fixed on the back side of described adapter plate, the cross section of described line slideway is in " work " font, two sides of described line slideway are respectively provided with a clamp bar slot, described slide block is provided with " T " font fluting, the both sides of the opening part of described fluting are respectively provided with a fixture block, described fixture block snaps in described draw-in groove, the lateral surface of described slide block is provided with one piece of adapter plate, described adapter plate is provided with four the first screw holes.

6. hot plate vacuum sealer as claimed in claim 5, it is characterized in that described first pinch device and the second pinch device adopt same structure, be fixed on lifter plate, for clamping and locating hot plate upper end, comprise fluid injection locating piece, rotary cylinder and briquetting, the bottom of described lifter plate is fixed in the rear end of described fluid injection locating piece, the side, front end of described fluid injection locating piece is provided with a breach, opposite side is provided with an opening, a blend stop is provided with in described opening, hot plate is placed in described opening, and it is inconsistent with described blend stop, described rotary cylinder is located at described indentation, there, and described rotary cylinder and hot plate are mutually vertical to be arranged, the mouth of described rotary cylinder is provided with rotary pneumatic cylinder arm, described briquetting is connected with the free end of described rotary pneumatic cylinder arm, when impaction state, heat pipe is between described blend stop and described briquetting.

7. hot plate vacuum sealer as claimed in claim 6, it is characterized in that described lower end closing device is fixed on the bottom of base plate, for the lower end closure to hot plate, it is characterized in that comprising sealing oil cylinder, oil pressure sealing seat, briquetting before oil pressure, lower cutter operator and the secondary cutter of lower cutter, the bottom in described floor rear face is located at by described sealing oil cylinder, described oil pressure sealing seat is located at the bottom of described base plate leading flank, before described oil pressure, briquetting is located in described oil pressure sealing seat, described sealing oil cylinder mouth is through described base plate, and be connected with briquetting before described oil pressure by oil pressure pipe link, before described oil pressure, the leading flank of briquetting is provided with the operator of lower cutter, the front portion of described lower cutter operator is provided with the secondary cutter of lower cutter, the secondary cutter trailing flank of described lower cutter is operated with described lower cutter, and to be provided with a cutter stupefied in corresponding section, described hot plate lower end is between described lower cutter is operated and cutter is stupefied.

8. hot plate vacuum sealer as claimed in claim 7, it is characterized in that described fixing lower is fixed on the bottom of base plate, for the lower end of fixing hot plate, it is characterized in that comprising lower fixed support, lower compression cylinder and lower fixed support pushing block, described lower fixed support is fixed on the bottom of the leading flank of base plate, described lower fixed support is provided with an installing port, described lower compression cylinder and lower fixed support pushing block are located in described installing port, described lower compression cylinder is fixed on described installing port trailing flank, described lower fixed support pushing block is located at described lower compression cylinder front, and be connected with described lower compression cylinder, described lower fixed support pushing block leading flank is provided with a projection, the leading flank of described installing port is provided with a groove with described projection corresponding section, hot plate lower end is placed in described groove, and compressed by lower fixed support pushing block, the width of described projection is less than the width of described groove.

9. hot plate vacuum sealer as claimed in claim 8, it is characterized in that described fluid gun comprises fluid injection commutator, fluid injection commutator machine, main support plate, pusher bar support, stepping motor and some glass tubes, described fluid injection commutator is propped up by fluid injection commutator and is set up in described main support plate top, the mouth of described fluid injection commutator machine is connected with described fluid injection commutator, described main support plate bottom is provided with some slots, described pusher bar support is provided with some cuttings, described cutting extends leading flank from described main support plate trailing flank, described pusher bar support is by slide mechanism and described main support plate sliding block joint, described glass tube is fixed on the leading flank of described main support plate by glass tube support, and be positioned at the top of described slot, every root cutting is provided with a glass tube fluid injection bar, the upper end of described glass tube fluid injection bar is inserted in described glass tube, the mouth of described stepping motor is provided with ball screw, described ball screw is connected with described pusher bar support by ball screw bearing.

10. hot plate vacuum sealer as claimed in claim 9, it is characterized in that described injection device is fixed on adapter plate, for to hot plate injecting fluid, comprise some syringe needles, fluid injection syringe needle permanent seat, injection needle orienting lug and two injection needle pilot bars, described fluid injection syringe needle permanent seat is fixed on described adapter plate, described injection needle pilot bar upper end is fixed on described adapter plate by injection needle guide rod seat, described injection needle orienting lug is provided with two pilot bar through holes, the lower end of two injection needle pilot bars is each passed through two pilot bar through holes, described injection needle orienting lug is provided with a groove between two pilot bar through holes, described groove is provided with some first pinpricks, described syringe needle lower end is stretched in described first pinprick, on described fluid injection syringe needle permanent seat, the position corresponding with described first pinprick is provided with the second pinprick of equal number, described syringe needle upper end is located in described second pinprick, described lifter plate top is provided with described fluid injection cylinder by fluid injection air cylinder support, described fluid injection cylinder lower end is connected with described adapter plate by flake.