CN207750665U - A kind of reaction kettle splicing frame - Google Patents

Abstract

The utility model discloses a kind of reaction kettle splicing framves, including supporting rack and splicing shell, the carriage for driving splicing body clearance to slide is provided on support frame as described above, the carriage includes the sliding platform being slidably arranged on supporting rack and the drive component for driving sliding platform gap to slide, its key points of the technical solution are that can ensure the uniform of container splicing to a certain extent.

Description

A kind of reaction kettle splicing frame

Technical field

The utility model is related to field of chemical equipment, more particularly to a kind of reaction kettle splicing frame.

Background technology

The broad understanding of reaction kettle has the container physically or chemically reacted, is matched with parameter by the structure design to container It sets, realizes the mixture function of the heating of technological requirement, evaporation, cooling and low high speed.Reaction kettle be widely used in oil, chemical industry, The research of the type of productions such as rubber, pesticide, dyestuff, medicine, food user and various scientific experiment projects, for complete hydrolysis, in With crystallization, distillation, evaporation, storage, hydrogenation, hydrocarbonylation, polymerization, condensation, heating mixture, the technical process such as isothermal reaction.

In existing reaction kettle, discharge port is generally located on the bottom end of reaction kettle, and a support is arranged in the lower section of discharge port Frame is supported splicing shell, and splicing shell is used to place the container of several equal volumes, and discharge port can coordinate valve It is controlled, after opening valve, the colloid inside reaction kettle flows out down under self gravitation effect, inside reaction kettle After colloid flows out part, the pressure inside reaction kettle is just changed, and colloid is flowed out by its own gravity down again will It flows out uneven, causes the time that the container of equal volume fills different in size.

Thus air compressor machine can be arranged in people on reaction kettle, ensure that the colloid of discharge port outflow is uniform, and passes through work at this time Make personnel push splicing shell carry out replace container be located at discharge port lower section, it may appear that the occurrence of splicing is uneven.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of reaction kettle splicing frame, energy It is enough to ensure the uniform of container splicing to a certain extent.

The above-mentioned technical purpose of the utility model technical scheme is that：

A kind of reaction kettle splicing frame, including supporting rack and splicing shell are provided on support frame as described above and are connect for driving The carriage of material shell body space sliding, the carriage includes the sliding platform being slidably arranged on supporting rack, Yi Jiyong In the drive component of driving sliding platform gap sliding.

So set, when colloid is uniformly flowed out from discharge port, it is more time-consuming using the artificial replacement container that carries out, lead to Cross the carriage that setting one can drive splicing body clearance to slide so that the replacement that splicing shell carries out intermittence is located at Container below discharge port fills colloid, then make by the driving of drive component that is, within the time in this gap in container With so that sliding platform carries out the sliding of intermittence with splicing shell, carries out the container below replacement discharge port, reaches one Automatic backlash replaces the technique effect that container connect colloid, can ensure the uniform of container splicing to a certain extent.

Further preferably：There are two the carriage settings, and the sliding platform in two carriages is mutual It is vertically arranged.

So set, by the way that two carriages are arranged, and the sliding platform in two carriages is mutually perpendicular to set It sets, i.e. two sliding platforms carry out orthogonal glide direction and slided, thus can in two perpendicular direction all Container is placed, will not can only put the container of a row, this makes it possible to the containers for once placing multiple rows of multiple row, need not manually grasp In the case of work, reach the higher working efficiency of splicing.

Further preferably：The driving component includes along sliding platform glide direction and being opened in sliding platform bottom end The sliding tooth that several tooth sockets, the mounting plate being arranged on supporting rack and rotational installation are meshed on a mounting board and with tooth socket Wheel is provided with driving motor on the mounting plate, is provided on the output shaft of the driving motor and drives gear to be connected to be used for Linkage driving gear rotates the linkage portion so that the sliding of sliding platform gap.

So set, starting driving motor, by the gearing of linkage portion, the rotation of sliding tooth wheel is driven, and make The rotation for driving gear intermittence pushes sliding platform sliding during sliding tooth wheel rotates, and drives the gap of gear Property rotation so that sliding platform carry out intermittence sliding, with reach intermittence replace container technique effect, avoid work The repeatability of personnel replaces container, but also in each container splicing uniformity, can ensure that container connects to a certain extent That expects is uniform.

Further preferably：The linkage portion includes being rotatably installed in peace by first support bar and second support bar respectively Driven gear and the first connecting plate and one end in loading board are connected with the first connecting plate and are slidably connected with first support bar Second connecting plate, the other end of first connecting plate, which abuts, the disk being connected with driving motor output shaft, on the disk Rotation is provided with the tooth plate being meshed with driven gear, and the disk connects along its circumferentially disposed first connecting plate and second that is useful for The concave edge that fishplate bar gap is swung up and down is provided with the bottom on band moving tooth plate gap that is connected with tooth plate on second connecting plate Dynamic connector.

So set, starting driving motor, second support bar rotation is driven, it is disc-rotated, due to the setting of concave edge, So that the disc diameter of disk differs, small and during diameter is big by diameter, one end of the first connecting plate down or Up carry out gap wobble, the other end of the first connecting plate and the second connecting plate up or down gap wobble, due to connector Setting, tooth plate also and then up or down gap wobble together, and during disk rotational, tooth plate follows to be turned together It is dynamic so that tooth plate is carrying out opposite sliding；

It is swung with the upper and lower gap for closing tooth plate so that tooth plate slides toward a direction and driven gear is pushed to rotate, and connects It up to swing and be detached from driven gear, then tooth plate then reverse slide, it is final to be engaged again with driven gear, it is recycled, is reached with this To the rotation of driven gear intermittence, so that the rotation of driving gear intermittence, eventually leads to the intermittence of sliding platform Sliding, realizes that the splicing of each container is uniform.

Further preferably：The connector includes the sliding groove opened up along tooth plate length direction and is rotatably installed in The sliding shoe being connected on second connecting plate and with sliding groove.

So set, during tooth plate is engaged with driven gear and driven gear is pushed to rotate, sliding shoe is sliding Sliding in slot so that the setting of sliding shoe and sliding groove can play limit and the guiding role of tooth plate；

When one end of the first connecting plate and the second connecting plate are up swung, up swung with tooth plate so that tooth plate with Driven gear is disengaged from state, and tooth plate can then carry out sliding relatively, at this point, sliding shoe slides in sliding groove, when After sliding into certain distance, one end of the first connecting plate and the second connecting plate are toward lower swing so that tooth plate and driven gear engagement, Continue sliding and pushes driven gear rotation so that the realization of tooth plate and the meshing state of driven gear intermittence, and then make Obtain the sliding that sliding platform is capable of intermittence.

Further preferably：The first connecting plate end set has the idler wheel abutted against with disk.

So set, being abutted against by idler wheel and disk, it is possible to reduce the contact friction force of the first connecting plate and disk subtracts Lacked the resistance of disk rotational so that driving motor can stablize output and stable drive to sliding platform sliding distance On.

Further preferably：The swinging chute swung up and down for first support bar is offered on second connecting plate.

So set, by the way that a swinging chute swung up and down for first support bar is arranged, while playing guiding, Play the position-limiting action of the second connecting plate so that the second connecting plate can only be swung up and down, and left and right offset will not occur, influence whole The stability of a structure.

Further preferably：Two sliding platform bottom ends are both provided with pulley.

So set, pulley is arranged in the bottom end by sliding platform, it is possible to reduce the frictional force of two sliding platforms sliding, Reduce the resistance of sliding so that sliding platform sliding is more stablized and synchronized.

In conclusion the utility model having the beneficial effect that in contrast to the prior art：It is orthogonal by being arranged two Sliding platform, and under the driving effect of drive component, realize orthogonal sliding, and between tooth plate and driven gear The engagement of gap simultaneously pushes driven gear to rotate so that sliding platform carries out intermittence sliding, reaches the uniform splicing of container.

Description of the drawings

Fig. 1 is the structural schematic diagram of embodiment；

Fig. 2 is the enlarged drawing of A in embodiment Fig. 1；

Fig. 3 is the display diagram of supporting rack bottom end in embodiment；

Fig. 4 is the enlarged drawing of B in embodiment Fig. 3；

Fig. 5 is the structural schematic diagram that driving gear is removed in embodiment Fig. 4；

Fig. 6 is the structural schematic diagram that driven gear is removed in embodiment Fig. 5.

Reference numeral：1, supporting rack；2, splicing shell；3, carriage；31, sliding platform；32, drive component；321、 Tooth socket；322, mounting plate；323, gear is driven；324, driving motor；4, linkage portion；41, first support bar；42, the second support Bar；43, driven gear；44, disk；441, concave edge；45, tooth plate；46, the first connecting plate；47, the second connecting plate；5, connector； 51, sliding groove；52, sliding shoe；6, idler wheel；7, swinging chute；8, pulley；9, the first sliding groove.

Specific implementation mode

The utility model is described in further detail below in conjunction with attached drawing.

A kind of reaction kettle splicing frame, it is shown referring to Fig.1, including supporting rack 1 and splicing shell 2.

Wherein, the carriage 3 for driving 2 gap of splicing shell to slide is provided on supporting rack 1, carriage 3 wraps The sliding platform 31 being slidably mounted on supporting rack 1 and the drive component 32 for driving 31 gap of sliding platform to slide are included, Due to there are two the settings of carriage 3, the sliding platform 31 being slidably mounted on supporting rack 1 is the sliding platform 31 of lower section, position It is set as being slidably connected in the sliding platform 31 of top and the sliding platform 31 of lower section, and is mutually perpendicular to, and for driving The drive component 32 of the sliding platform 31 of top is mounted on the sliding platform 31 of lower section.

Since the structure of two drive components 32 is identical, what is be next unfolded is underlying drive component 32, i.e., with The drive component 32 for the sliding platform 31 that supporting rack 1 is slidably connected.

With reference to shown in Fig. 3 and Fig. 5, this drive component 32 includes along 31 glide direction of sliding platform and being opened in sliding platform Several tooth sockets 321 of 31 bottom ends and the mounting plate 322 being arranged on supporting rack 1 are rotatablely equipped with driving in mounting plate 322 Gear 323（See Fig. 4）, driving gear 323 is meshed with tooth socket 321, and driving motor 324 is provided on mounting plate 322, drives It is provided with to be connected with driving gear 323 on the output shaft of dynamic motor 324 and be rotated so that sliding platform for linkage driving gear 323 The linkage portion 4 of 31 gaps sliding.

With reference to shown in Fig. 6, linkage portion 4 includes being rotatably installed in mounting plate by first support bar 41 and second support bar 42 Driven gear 43 on 322（See Fig. 5）It is connected with the first connecting plate 46 with the first connecting plate 46 and one end and is supported with first The second connecting plate 47 that bar 41 is slidably connected, and gear 323 is driven to be mounted in first support bar 41, the one of the first connecting plate 46 End is connected with the second connecting plate 47, and other end rotation is provided with idler wheel 6, and the abutting of idler wheel 6 has to be connected with 324 output shaft of driving motor Disk 44, and rotation is provided with the tooth plate 45 being meshed with driven gear 43 on disk 44, and disk 44 is set along its circumferential direction It is equipped with the concave edge 441 swung up and down for the first connecting plate 46 and 47 gap of the second connecting plate, concave edge 441 is according to driven gear 43 It needs rotation how many and sets.

It is worth noting that being provided with the bottom on 45 gap of band moving tooth plate that is connected with tooth plate 45 on the second connecting plate 47 Dynamic connector 5, connector 5 include the sliding groove 51 opened up along 45 length direction of tooth plate and are rotatably installed in the second connection The sliding shoe 52 being connected on plate 47 and with sliding groove 51.

It is noted that shown in referring to Figures 1 and 2, the bottom end of two pieces of sliding platforms 31, which all rotates, is provided with pulley 8, There are four the settings of pulley 8, is symmetrically distributed in the bottom end of sliding platform 31, and thus the top of supporting rack 1 is offered slides for pulley 8 The first sliding groove 9, and the top of underlying sliding platform 31 offers second sliding slot, 31 bottom of sliding platform being located above The pulley 8 at end slides in second sliding slot.

The course of work：

Start mounting plate 322 and be located at the driving motor 324 on supporting rack 1, drives disk 44 to rotate, due to being set on disk 44 It is equipped with concave edge 441, when the idler wheel 6 on the first connecting plate 46 is contacted with 44 normal disc of disk, tooth plate 45 follows disk 44 1 Rotation is played, and is meshed at this time with driven gear 43, driven gear 43 is pushed to rotate, drives first support bar 41 to rotate, band Dynamic driving gear 323 rotates, and pushes sliding platform 31 to be slided, realizes the replacement of container.

When the disc of idler wheel 6 and concave edge 441 on the first connecting plate 46 contacts, idler wheel 6 is fallen down and and and disk 44 abut, and the first connecting plate 46 is located at one section of 47 side of the second connecting plate at this time and the second connecting plate 47 up tilts, with Sliding shoe 52 up tilts, and sliding shoe 52 can up be moved with tooth plate 45 so that tooth plate 45 is disengaged from driven gear 43 State, at this time driven gear 43 stop operating, finally so that sliding platform 31 stop sliding, be located at discharge port below container Carry out splicing.

Then due to the rotation of disk 44, idler wheel 6 is contacted with the normal disc of disk 44 again, and disk 44 pushes first to connect Fishplate bar 46 up tilts so that the first connecting plate 46 is located at one section of 47 side of the second connecting plate and the second connecting plate 47 is fallen down It falls, tooth plate 45 also falls down and is meshed with driven gear 43 at this time, during disk 44 rotates, with tooth plate 45 1 Rotation is played, and under the position-limiting action of sliding shoe 52 and sliding groove 51, is slided, that is, pushes driven gear 43 to rotate, is driven First support bar 41 rotates so that driving gear 323 rotates, and finally so that sliding platform 31 carries out sliding action, is replaced Container.

In the case where disk 44 rotates always, sliding platform 31 can be made to carry out the sliding of intermittence, that is, carry out gap Property replacement container, since the time for replacing container is identical, and upper colloid is coordinated uniformly to fall, the colloid that container connects is caused to be It is identical.

When sliding platform 31 slides into, the position before pushing sliding platform 31 that can return to, when needing to carry out in addition When the container in one direction is replaced, start another driving motor 324.

The above is only the exemplary embodiment of the utility model, the protection model rather than limited the present invention It encloses, the scope of protection of the utility model is determined by the attached claims.

Claims (8)

1. a kind of reaction kettle splicing frame, including supporting rack (1) and splicing shell (2), it is characterized in that：On support frame as described above (1) It is provided with the carriage (3) for driving splicing shell (2) gap to slide, the carriage (3) includes being slidably arranged in Sliding platform (31) on supporting rack (1) and the drive component (32) for driving sliding platform (31) gap to slide.

2. a kind of reaction kettle splicing frame according to claim 1, it is characterized in that：The carriage (3) is provided with two A, the sliding platform (31) in two carriages (3) is arranged in a mutually vertical manner.

3. a kind of reaction kettle splicing frame according to claim 1 or 2, it is characterized in that：The driving component (32) includes Along sliding platform (31) glide direction and it is opened in several tooth sockets (321) of sliding platform (31) bottom end, is arranged in supporting rack (1) On mounting plate (322) and the driving gear that is rotatably installed on mounting plate (322) and is meshed with tooth socket (321) (323), it is provided with driving motor (324) on the mounting plate (322), is provided on the output shaft of the driving motor (324) It is connected with driving gear (323) and rotates the linkage portion so that the sliding of sliding platform (31) gap for linkage driving gear (323) (4)。

4. a kind of reaction kettle splicing frame according to claim 3, it is characterized in that：The linkage portion (4) includes leading to respectively The driven gear (43) and first that first support bar (41) and second support bar (42) are rotatably installed on mounting plate (322) is crossed to connect The second connecting plate that fishplate bar (46) and one end are connected with the first connecting plate (46) and are slidably connected with first support bar (41) (47), the other end abutting of first connecting plate (46) has the disk (44) being connected with driving motor (324) output shaft, described Rotation is provided with the tooth plate (45) being meshed with driven gear (43) on disk (44), and the disk (44) is circumferentially provided with along it For the concave edge (441) that the first connecting plate (46) and the second connecting plate (47) gap are swung up and down, second connecting plate (47) On be provided with and be connected with tooth plate (45) for the connector (5) that is swung up and down with moving tooth plate (45) gap.

5. a kind of reaction kettle splicing frame according to claim 4, it is characterized in that：The connector (5) includes along tooth plate (45) sliding groove (51) and be rotatably installed on the second connecting plate (47) and be connected with sliding groove (51) that length direction opens up Sliding shoe (52).

6. a kind of reaction kettle splicing frame according to claim 4, it is characterized in that：First connecting plate (46) end is set It is equipped with the idler wheel (6) abutted against with disk (44).

7. a kind of reaction kettle splicing frame according to claim 4, it is characterized in that：It is opened up on second connecting plate (47) There is the swinging chute (7) swung up and down for first support bar (41).

8. a kind of reaction kettle splicing frame according to claim 1, it is characterized in that：Two sliding platform (31) bottom ends It is both provided with pulley (8).